Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autosomal recessive retinitis pigmentosa (ARRP) is a genetically heterogeneous form of retinal degeneration. The genes for the beta-subunit of rod phosphodiesterase (PDEB), rhodopsin (RHO), peripherin/RDS (RDS) and the rod outer segment membrane protein 1 (ROM1), as well as loci at 6p and 1q, have previously been reported as the cause of ARRP. In order to determine whether they are responsible for the disease in Spanish pedigrees, linkage and homozygosity studies using markers at these loci were carried out on 47 Spanish ARRP families. SSCP analysis was performed to search for mutations in the genes cosegregating with the disease in particular pedigrees. Three homozygous mutations in the PDEB gene were found, thus accounting for 6% of the cases. No other disease-causing mutation was observed in the other genes analysed, nor was significant evidence found for the involvement of the loci at 6p or 1q. On the basis of these data, it is unlikely that these genes and loci account for a considerable proportion of ARRP cases.
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PMID:Autosomal recessive retinitis pigmentosa in Spain: evaluation of four genes and two loci involved in the disease. 900 28

Autosomal recessive retinitis pigmentosa (arRP) is characterized by considerable allelic and nonallelic heterogeneity. Mutations have been described in the rhodopsin gene (RHO), the genes encoding the alpha and beta subunits of rod phosphodiesterase (PDEA and PDEB), and the gene encoding the alpha subunit of the cGMP-gated channel (CNCG). In addition, linkage studies in single extended pedigrees have defined two new arRP loci, at 1q and 6p. To identify the disease gene in a Spanish consanguineous arRP family, a linkage analysis was undertaken. After testing 102 polymorphic markers, a significant positive lod score (Zmax = 3.64 at theta = 0) was obtained with marker D1S188 at 1p13-p21, the same region where the Stargardt and fundus flavimaculatus (FFM) loci were previously defined. Exhaustive ophthalmologic examination of the patients clearly distinguished the disease from the Stargardt and FFM phenotypes and revealed an atypical form of arRP with choroidal atrophy as a distinctive feature.
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PMID:A new locus for autosomal recessive retinitis pigmentosa (RP19) maps to 1p13-1p21. 907 Sep 31

This group has previously reported the mapping of a novel locus for autosomal dominant retinitis pigmentosa (adRP) in a South African kindred to 17q. Using a new series of microsatellite markers in this study, twopoint and multipoint analysis provide evidence for the localization of the disease gene to the 17q22 region. In addition, a second South African adRP family is shown to be linked to this 17q22 locus. Disease-associated haplotypes constructed for both families and multipoint linkage analysis place the gene in the 10-cM interval between D17S1607 and D17S1874. Three candidate genes on 17q were investigated: PDEG, the gamma subunit of rod phosphodiesterase; TIMP2, tissue inhibitor of metalloproteinases-2; and PRKCA, protein kinase C alpha. Recombination events between the adRP locus and: (1) a single-stranded conformation polymorphism in PDEG; and (2) a restriction fragment length polymorphism in TIMP2 provided evidence for the exclusion of these candidate genes as being responsible for adRP in the South African kindred.
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PMID:Retinitis pigmentosa locus on 17q (RP17): fine localization to 17q22 and exclusion of the PDEG and TIMP2 genes. 938 61

Progressive retinal atrophy (PRA) is a leading hereditary cause of blindness in pedigree dogs as is its counterpart retinitis pigmentosa (RP) in humans. PRA shows genetic heterogeneity, as does RP, with several distinct forms already recognized and several more remaining to be investigated. Progress in molecular genetics has allowed the identification of the gene mutation responsible for an early onset form of PRA in the Irish setter, classified as rod-cone dysplasia type 1. The gene involved is the beta-subunit of cyclic guanosine monophosphate phosphodiesterase which encodes a protein of the visual transduction cascade. Investigation of this gene in other breeds of dog with PRA has failed to find further breeds with the same mutation. Other genes that have been investigated include those encoding other proteins in the visual transduction cascade and for photoreceptor specific structural proteins. Further disease causing mutations have not yet been identified. Recently, developments in the mapping of the canine genome have produced sufficient markers to allow preliminary mapping of PRA genes. Already linkage to the most common form of PRA, progressive rod-cone degeneration (prcd), has been established. prcd occurs in poodles, cocker spaniels and Labrador retrievers and possibly other breeds. The prcd-linked marker should enable development of a DNA-based test for the disease locus and facilitate identification of the actual disease causing gene mutation. Over the next few years we can look forward to the identification of several more PRA-causing gene mutations. This article will review research that seeks to characterize PRA in the dog, identify the responsible gene mutations, and elucidate the disease processes involved.
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PMID:A review of research to elucidate the causes of the generalized progressive retinal atrophies. 945 53

Rod-specific cGMP phosphodiesterase (PDE) is a key enzyme of the phototransduction cascade, and mutations in its catalytic subunits have been associated with retinal degenerative diseases. The bovine delta-subunit solubilises the normally membrane-bound PDE and is the only subunit expressed in extraocular tissues. We isolated the human and mouse orthologs, and found 78% identity at the DNA level and 98% identity at the protein level. The Caenorhabditis elegans homolog shows 69% identity at the protein level. The human PDED gene consisted of 5 exons spanning at least 30 kb of genomic DNA. Northern blot analysis showed a 1.3 kb transcript in human retina, heart, brain, placenta, liver, and skeletal muscle. Fluorescence in situ hybridisation (FISH) and radiation hybrid mapping localised the human PDED gene to chromosome 2q37. A preliminary screen of all 5 exons in 20 unrelated patients with autosomal recessive retinitis pigmentosa revealed no PDED mutations.
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PMID:Cloning and gene structure of the rod cGMP phosphodiesterase delta subunit gene (PDED) in man and mouse. 978 Oct 33

cGMP-phosphodiesterase (PDE) is composed of two catalytic (alpha and beta) and two identical inhibitory (gamma) subunits. The human gene (PDE6D) encoding a new subunit (delta) has been characterized and mapped to the long arm of chromosome 2 (HSA2q35-q36) where a new autosomal recessive retinitis pigmentosa (arRP) locus (RP26) has been localized. Characterization of the canine PDE6D shows the gene is about 4.2kb containing four exons interrupted by three introns; the size of the cDNA is 1059bp with an open reading frame (ORF) of 453bp. A single transcript of identical size (1.43kb) was detected in all tissues examined (liver, lung, spleen, kidney, heart, brain and retina), with the highest abundance in the retina. Canine PDE6D has been localized to canine radiation hybrid group 14-a, which extends conserved synteny between the dog, human chromosome 2q and mouse chromosome 1. The characterization of the canine PDE6D gene and its mapping provide important information for testing causal association of the gene with canine retinal degenerations, in particular rod-cone dysplasia 2 (rcd2) in collie dogs. This disease is characterized by abnormal retinal cGMP metabolism due to a deficiency in cGMP-PDE activity, yet the alpha, beta and gamma subunits of PDE have been excluded as candidate gene loci.
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PMID:Molecular characterization and mapping of canine cGMP-phosphodiesterase delta subunit (PDE6D). 1045 52

Rod-cone dysplasia types 1 (rcd1; Irish setter) and 2 (rcd2; collie) in dogs are early onset forms of progressive retinal atrophy (PRA) which serve as models of retinitis pigmentosa (RP) in humans. As both rcd1 and rcd2 result from abnormal retinal cGMP metabolism associated with a deficiency in cGMP-phosphodiesterase (PDE) activity, and a nonsense mutation in the PDE6B subunit gene has been shown to cause rcd1, the genes encoding the four subunits of the PDE complex (PDE6A, PDE6B, PDE6G and PDE6D) make compelling candidates for the rcd2 locus. We adopted diverse strategies to evaluate causal association of the four PDE subunit genes with the rcd2 phenotype. Identification in an informative pedigree of obligate recombinations between intragenic polymorphisms within PDE6A and PDE6D and the rcd2 locus unequivocally excludes these two genes. PDE6B was excluded by a breeding strategy demonstrating nonallelism of rcd1 and rcd2. Direct sequencing of PDE6G from an rcd2 -homozygous collie dog revealed no abnormality in the entire genomic sequence. To evaluate cosegregation between PDE6G and rcd2, advantage was taken of prior knowledge that PDE6G and Galactokinase 1 (GALK1) localize to the same canine-rodent somatic hybrid cell line. Linkage analysis using a single nucleotide polymorphism (SNP) in the PDE6G gene, and a (CA)n repeat polymorphism in the GALK1 gene, which were both segregating in an unrelated pedigree, established close linkage of these two genes (theta = 0; Z = 4.21). Identification of obligate recombinations between GALK1 and the rcd2 locus in an informative rcd2 pedigree thus excluded PDE6G as a candidate gene for rcd2; the exclusion distance between GALK1 and rcd2 is at least 0.35 cM. These results therefore exclude the entire set of genes coding for the rod PDE complex as candidates for rcd2.
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PMID:Evaluation of cGMP-phosphodiesterase (PDE) subunits for causal association with rod-cone dysplasia 2 (rcd2), a canine model of abnormal retinal cGMP metabolism. 1050 78

The cyclic guanosine monophosphate specific phosphodiesterase (cGMP-specific PDE) is a key enzyme in the phototransduction cascade of the vertebrate retina. This enzyme consists of two catalytic alpha and beta subunits, two identical inhibitory gamma subunits as well as a delta subunit. Mutations in PDE6A and the PDE6B genes lead to autosomal recessive (ar) forms of retinitis pigmentosa (RP) in human and to the homologous disease in dogs, designated generalised progressive retinal atrophy (gPRA). We investigated the PDE6A gene in 13 gPRA-affected dog breeds including healthy animals, obligate gPRA carriers and gPRA-affected dogs. In the coding region of PDE6A only a rare sequence variation (G103A; Asp35Asn) was found in exon 1 of two healthy Tibet Terriers and one affected Cocker Spaniel. Using single-stranded conformation polymorphism (SSCP) analyses we detected several sequence variations in eight of the PDE6A introns in different investigated breeds. Most informative for excluding the PDE6A gene as a cause for gPRA was a polymorphic microsatellite ((GT)10CG(GT)2CG(GT)12) in intron 14 and four sequence variations in intron 18 for almost all breeds investigated. The sequence variations of PDE6A did not segregate together with gPRA in 11 breeds. Since diseased animals were heterozygous for the polymorphisms, the PDE6A gene is unlikely to harbour the critical mutation causing gPRA in the following breeds: Chesapeake Bay Retriever. Entlebucher Sennenhund, Labrador Retriever. Tibet Mastiff, Dachshund (long- and wire-haired), Tibetan Terrier, Miniature Poodle. Australian Cattle Dog, Cocker Spaniel, Saarloos/Wolfshound, Sloughi.
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PMID:Exclusion of the PDE6A gene for generalised progressive retinal atrophy in 11 breeds of dog. 1078 14

The retinal degeneration(rd) mouse is a commonly-studied animal model of the family of human-inherited retinal blindness known as retinitis pigmentosa, and is a likely model in which therapies for these conditions will continue to be developed and tested. Mutation of the beta-subunit of the rod photoreceptor cell-specific cyclic GMP phosphodiesterase is known to cause photoreceptor apoptosis in these mice. However, the molecular phenotype of this mutation in terms of quantitative levels of the phosphodiesterase alpha- and beta-subunit messenger RNAs remains unknown. In this study, the expression of the alpha- and beta-phosphodiesterase subunits is compared in C57BL/6J +/+, rd /+, and rd / rd mouse retinas. Using the techniques of quantitative reverse transcription polymerase chain reaction and quantitative in situ hybridization, the expression of the subunit mRNAs was measured in retinas of postnatal mice 0-14 days of age. Additionally, full length coding sequences were amplified for both subunits, and the beta-phosphodiesterase subunit mRNA was further evaluated for evidence of alternative splicing. Lastly, a relative decrease in expression of the mutant beta-phosphodiesterase allele in rd /+ mice was observed.
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PMID:Analysis and quantitation of mRNAs encoding the alpha- and beta-subunits of rod photoreceptor cGMP phosphodiesterase in neonatal retinal degeneration (rd) mouse retinas. 1093 Mar 17

Animal models of retinitis pigmentosa include the rd mouse, in which a mutation of a rod-specific phosphodiesterase leads to the rapid loss of photoreceptors during the early postnatal life. Very little is known about changes occurring in inner retinal neurons after photoreceptor loss. These changes are important in view of the possibility of restoring vision in retinas with photoreceptor degeneration by means of cell transplantation or direct stimulation of inner layers. In this paper, we show that bipolar and horizontal cells of the rd mouse retina undergo dramatic morphological modifications accompanying photoreceptor loss, demonstrating a dependence of second order neurons on these cells. While describing modifications of the rd retina, we also provide quantitative information about neurons of the wild-type mouse retina, useful for future studies on genetically altered animals.
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PMID:Modifications of retinal neurons in a mouse model of retinitis pigmentosa. 1099 68


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